The diagnostics of particle flows in Inertial Confinement Fusion experiments is a delicate issue, due to the fast timescales and to the strong radiative electromagnetic contributions. This makes the discrimination of the different particles produced by the laser-plasma interaction not trivial, and requires the use of several diagnostic techniques. We describe here the diagnostics improvement in the ABC facility. They will provide more detailed analysis of microwave fields and particles originating from the interaction of laser with targets foreseen for future experiments. © 2013 Euratom-ENEA Association.

Diagnostics improvement in the ABC facility and preliminary tests on laser interaction with light-atom clusters and p+11B targets

Di Giorgio, G.;Cristofari, G.;Andreoli, P.;De Angelis, R.;Consoli, F.
2013

Abstract

The diagnostics of particle flows in Inertial Confinement Fusion experiments is a delicate issue, due to the fast timescales and to the strong radiative electromagnetic contributions. This makes the discrimination of the different particles produced by the laser-plasma interaction not trivial, and requires the use of several diagnostic techniques. We describe here the diagnostics improvement in the ABC facility. They will provide more detailed analysis of microwave fields and particles originating from the interaction of laser with targets foreseen for future experiments. © 2013 Euratom-ENEA Association.
Detectors; Diagnostics; Inertial confinement fusion; Laser-plasma interaction; Microwaves; Particles
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12079/800
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